AI Article Synopsis
- The black widow spider's venom contains a range of neurotoxic latrotoxins (LTXs), with the most significant one being α-LTX, which affects vertebrates by disrupting neurotransmitter release at nerve terminals.
- α-LTX is composed of multiple structural domains and functions by forming tetramers that create calcium-conductive pores in the presynaptic membrane, although the exact mechanism is not fully understood.
- New cryo-electron microscopy (cryoEM) studies reveal structural changes in α-LTX that allow it to insert into membranes and form cation-permeable channels, providing insights that could lead to new medical and technological advancements.
Article Abstract
The potent neurotoxic venom of the black widow spider contains a cocktail of seven phylum-specific latrotoxins (LTXs), but only one, α-LTX, targets vertebrates. This 130 kDa toxin binds to receptors at presynaptic nerve terminals and triggers a massive release of neurotransmitters. It is widely accepted that LTXs tetramerize and insert into the presynaptic membrane, thereby forming Ca-conductive pores, but the underlying mechanism remains poorly understood. LTXs are homologous and consist of an N-terminal region with three distinct domains, along with a C-terminal domain containing up to 22 consecutive ankyrin repeats. Here we report cryoEM structures of the vertebrate-specific α-LTX tetramer in its prepore and pore state. Our structures, in combination with AlphaFold2-based structural modeling and molecular dynamics simulations, reveal dramatic conformational changes in the N-terminal region of the complex. Four distinct helical bundles rearrange and together form a highly stable, 15 nm long, cation-impermeable coiled-coil stalk. This stalk, in turn, positions an N-terminal pair of helices within the membrane, thereby enabling the assembly of a cation-permeable channel. Taken together, these data give insight into a unique mechanism for membrane insertion and channel formation, characteristic of the LTX family, and provide the necessary framework for advancing novel therapeutics and biotechnological applications.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11449929 | PMC |
| http://dx.doi.org/10.1038/s41467-024-52635-5 | DOI Listing |
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